Differing Daphnia magna assimilation efficiencies for terrestrial, bacterial, and algal carbon and fatty acids
Taipale, S., Brett, M. T., Hahn, M. W., Martin-Creuzburg, D., Yeung, S., Hiltunen, M., Strandberg, U., & Kankaala, P. (2014). Differing Daphnia magna assimilation efficiencies for terrestrial, bacterial, and algal carbon and fatty acids. Ecology, 95(2), 563-576. https://doi.org/10.1890/13-0650.1
Published in
EcologyAuthors
Date
2014Copyright
© Ecological Society of America. Published in this repository with the kind permission of the publisher.
There is considerable interest in the pathways by which carbon and growthlimiting
elemental and biochemical nutrients are supplied to upper trophic levels. Fatty acids
and sterols are among the most important molecules transferred across the plant–animal
interface of food webs. In lake ecosystems, in addition to phytoplankton, bacteria and
terrestrial organic matter are potential trophic resources for zooplankton, especially in those
receiving high terrestrial organic matter inputs. We therefore tested carbon, nitrogen, and
fatty acid assimilation by the crustacean Daphnia magna when consuming these resources.
We fed Daphnia with monospecific diets of high-quality (Cryptomonas marssonii) and
intermediate-quality (Chlamydomonas sp. and Scenedesmus gracilis) phytoplankton species,
two heterotrophic bacterial strains, and particles from the globally dispersed riparian grass,
Phragmites australis, representing terrestrial particulate organic carbon (t-POC). We also
fed Daphnia with various mixed diets, and compared Daphnia fatty acid, carbon, and
nitrogen assimilation across treatments. Our results suggest that bacteria were nutritionally
inadequate diets because they lacked sterols and polyunsaturated omega-3 and omega-6 (x-3
and x-6) fatty acids (PUFAs). However, Daphnia were able to effectively use carbon and
nitrogen from Actinobacteria, if their basal needs for essential fatty acids and sterols were
met by phytoplankton. In contrast to bacteria, t-POC contained sterols and x-6 and x-3
fatty acids, but only at 22%, 1.4%, and 0.2% of phytoplankton levels, respectively, which
indicated that t-POC food quality was especially restricted with regard to x-3 PUFAs. Our
results also showed higher assimilation of carbon than fatty acids from t-POC and bacteria
into Daphnia, based on stable-isotope and fatty acids analysis, respectively. A relatively high
(.20%) assimilation of carbon and fatty acids from t-POC was observed only when the
proportion of t-POC was .60%, but due to low PUFA to carbon ratio, these conditions
yielded poor Daphnia growth. Because of lower assimilation for carbon, nitrogen, and fatty
acids from t-POC relative to diets of bacteria mixed with phytoplankton, we conclude that
the microbial food web, supported by phytoplankton, and not direct t-POC consumption,
may support zooplankton production. Our results suggest that terrestrial particulate organic
carbon poorly supports upper trophic levels of the lakes.
...
Publisher
Ecological Society of AmericaISSN Search the Publication Forum
0012-9658
Original source
http://www.esajournals.org/doi/abs/10.1890/13-0650.1Publication in research information system
https://converis.jyu.fi/converis/portal/detail/Publication/23633708
Metadata
Show full item recordCollections
License
Except where otherwise noted, this item's license is described as © Ecological Society of America. Published in this repository with the kind permission of the publisher.
Related items
Showing items with similar title or keywords.
-
Bacterial-mediated terrestrial carbon in the foodweb of humic lakes
Taipale, Sami (University of Jyväskylä, 2007)Sami Taipale tarkasteli tutkimuksessaan metaanin merkitystä humusjärvien ravintoketjussa. Suurin osa Suomen järvistä lukeutuu humusjärviin, jotka ovat väriltään ruskehtavia. Koska metaani on 21 kertaa tehokkaampi kasvihuonekaasu ... -
Eutrophication and browning influence Daphnia nutritional ecology
Taipale, Sami J.; Aalto, Sanni L.; Galloway, Aaron W. E.; Kuoppamäki, Kirsi; Nzobeuh, Polain; Peltomaa, Elina (Taylor & Francis, 2019)Climate change and land-use practices can enhance lake eutrophication and browning, which influence phytoplankton composition by decreasing the availability of food high in nutritional quality (algae) and increasing the ... -
The second life of terrestrial and plastic carbon as nutritionally valuable food for aquatic consumers
Taipale, S. J.; Rigaud, C.; Calderini, M. L.; Kainz, M. J.; Pilecky, M.; Uusi‐Heikkilä, S.; Vesamäki, J. S.; Vuorio, K.; Tiirola, M. (Wiley, 2023)Primary production is the basis for energy and biomolecule flow in food webs. Nutritional importance of terrestrial and plastic carbon via mixotrophic algae to upper trophic level is poorly studied. We explored this question ... -
Bacterial and phytoplankton responses to nutrient amendments in a boreal lake differ according to season and to taxonomic resolution
Peura, Sari; Eiler, Alexander; Hiltunen, Minna; Nykänen, Hannu; Tiirola, Marja; Jones, Roger (Public Library of Science, 2012)Nutrient limitation and resource competition in bacterial and phytoplankton communities may appear different when considering different levels of taxonomic resolution. Nutrient amendment experiments conducted in a boreal ... -
Variation in ω-3 and ω-6 Polyunsaturated Fatty Acids Produced by Different Phytoplankton Taxa at Early and Late Growth Phase
Taipale, Sami; Peltomaa, Elina; Salmi, Pauliina (MDPI, 2020)Phytoplankton synthesizes essential ω-3 and ω-6 polyunsaturated fatty acids (PUFA) for consumers in the aquatic food webs. Only certain phytoplankton taxa can synthesize eicosapentaenoic (EPA; 20:5ω3) and docosahexaenoic ...